Selection signatures in two oldest Russian native cattle breeds revealed using high-density single nucleotide polymorphism analysis

Zinovieva, N. A.; Dotsev, Arsen V; Sermyagin, A.A.; Deniskova, Tatiana; Abdelmanova, Alexandra; Харзинова, В. Р.; Sölkner, Johann; Reyer, Henry; Wimmers, Klaus; Brem, Gottfried

doi:10.1371/journal.pone.0242200

Cited by 27 publications

(16 citation statements)

References 134 publications

(177 reference statements)

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“…Methods used for defining signatures of selection: 3 F ST , top 0.1% SNPs by F ST value at pairwise population comparison; 4 hapFLK, regions identified by hapFLK analysis at p < 0.01; and 5 ROH50, ROH segments distributed in more than 50% of animals within each breed. Studied populations: 6 RW/WC comparison, 7 RW, and 8 WC.…”

Section: Analysis Of the Signatures Of Selectionmentioning

confidence: 99%

“…Many native breeds are now at the risk of being lost, while potentially harboring significant historical footprints of selection for economically important phenotypes in their genomes. Conservation and molecular genetic characterization of biodiversity among domestic animal and poultry species used for food production are two of the key objectives to ensure the sustainability of local and regional agricultural production systems [1][2][3][4][5][6][7]. Genomic tools and resources for poultry-related research have advanced and been immensely enriched since the time of the first chicken reference genome sequence publication [8].…”

Section: Introductionmentioning

confidence: 99%

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Unveiling Comparative Genomic Trajectories of Selection and Key Candidate Genes in Egg-Type Russian White and Meat-Type White Cornish Chickens

Abdelmanova

Dotsev

Romanov

et al. 2021

Biology

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Comparison of genomic footprints in chicken breeds with different selection history is a powerful tool in elucidating genomic regions that have been targeted by recent and more ancient selection. In the present work, we aimed at examining and comparing the trajectories of artificial selection in the genomes of the native egg-type Russian White (RW) and meat-type White Cornish (WC) breeds. Combining three different statistics (top 0.1% SNP by FST value at pairwise breed comparison, hapFLK analysis, and identification of ROH island shared by more than 50% of individuals), we detected 45 genomic regions under putative selection including 11 selective sweep regions, which were detected by at least two different methods. Four of such regions were breed-specific for each of RW breed (on GGA1, GGA5, GGA8, and GGA9) and WC breed (on GGA1, GGA5, GGA8, and GGA28), while three remaining regions on GGA2 (two sweeps) and GGA3 were common for both breeds. Most of identified genomic regions overlapped with known QTLs and/or candidate genes including those for body temperatures, egg productivity, and feed intake in RW chickens and those for growth, meat and carcass traits, and feed efficiency in WC chickens. These findings were concordant with the breed origin and history of their artificial selection. We determined a set of 188 prioritized candidate genes retrieved from the 11 overlapped regions of putative selection and reviewed their functions relative to phenotypic traits of interest in the two breeds. One of the RW-specific sweep regions harbored the known domestication gene, TSHR. Gene ontology and functional annotation analysis provided additional insight into a functional coherence of genes in the sweep regions. We also showed a greater candidate gene richness on microchromosomes relative to macrochromosomes in these genomic areas. Our results on the selection history of RW and WC chickens and their key candidate genes under selection serve as a profound information for further conservation of their genomic diversity and efficient breeding.

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Section: Analysis Of the Signatures Of Selectionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Unveiling Comparative Genomic Trajectories of Selection and Key Candidate Genes in Egg-Type Russian White and Meat-Type White Cornish Chickens

Abdelmanova

Dotsev

Romanov

et al. 2021

Biology

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“…SERGEF is also among the 48 differentially expressed genes from two breeds of chicken showing extreme differences in hypoxic adaptation reared in Tibet ( Hu et al, 2020 ), whereas NDUFV2 has been identified as a candidate gene possibly involved in pulmonary hypertension in Black Angus cattle ( Newman et al, 2011 ). The NDUFV2 gene has been also detected under selection pressure for lipid metabolism in Yaroslavl cattle, and related with local adaptation to survive under poor nutrition conditions in winter ( Zinovieva et al, 2020 ). Additional genes located in the candidate regions on BTA15 ( HSPA8 , SCN3B ) and BTA19 ( LAMA1 ) point toward other aspects of environmental adaptation of Maremmana: HSPA8 plays a role in thermoregulatory protective mechanisms in cattle and buffalo under tropical environments ( Kumar et al, 2015 ), and associated with cellular response to heat stress in goats ( Mohanarao et al, 2014 ); SCN3B is involved in positive regulation of heart rate (GO:0010460) and sensory perception of pain (GO:0019233).…”

Section: Resultsmentioning

confidence: 99%

Genome-Wide Analysis Reveals Selection Signatures Involved in Meat Traits and Local Adaptation in Semi-Feral Maremmana Cattle

et al. 2021

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The Maremmana cattle is an ancient Podolian-derived Italian breed raised in semi-wild conditions with distinctive morphological and adaptive traits. The aim of this study was to detect potential selection signatures in Maremmana using medium-density single nucleotide polymorphism array. Putative selection signatures were investigated combining three statistical approaches designed to quantify the excess of haplotype homozygosity either within (integrated haplotype score, iHS) or among pairs of populations (Rsb and XP-EHH), and contrasting the Maremmana with a single reference population composed of a pool of seven Podolian-derived Italian breeds. Overall, the three haplotype-based analyses revealed selection signatures distributed over 19 genomic regions. Of these, six relevant candidate regions were identified by at least two approaches. We found genomic signatures of selective sweeps spanning genes related to mitochondrial function, muscle development, growth, and meat traits (SCIN, THSD7A, ETV1, UCHL1, and MYOD1), which reflects the different breeding schemes between Maremmana (semi-wild conditions) and the other Podolian-derived Italian breeds (semi-extensive). We also identified several genes linked to Maremmana adaptation to the environment of the western-central part of Italy, known to be hyperendemic for malaria and other tick-borne diseases. These include several chemokine (C-C motif) ligand genes crucially involved in both innate and adaptive immune responses to intracellular parasite infections and other genes playing key roles in pulmonary disease (HEATR9, MMP28, and ASIC2) or strongly associated with malaria resistance/susceptibility (AP2B1). Our results provide a glimpse into diverse selection signatures in Maremmana cattle and can be used to enhance our understanding of the genomic basis of environmental adaptation in cattle.

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“…С помощью STR (short tandem repeat) маркеров изучали генетическую структуру популяций местных пород индийских зебу -онголе, деони, гир, канкрей (6), мексиканского скота криолло (7), а также красной степной (8), суксунской, истобенской, ярославской, холмогорской, серой украинской и холмогорской (печорский тип) пород КРС (9). Полногеномный SNP скрининг использовали для установления генетического разнообразия и межпородной дифференциации аборигенного южноафриканского скота (африканер, дракенсбергер, нгуни) (10), пяти местных пород КРС в Бангладеш (читагонгская красная, пабна и зебу муншигандж, северный бенгальский серый, деши) (11), шести пород скота из провинции Сычуань в Китае (башаньский, сюаньханьский, пингву, саньцзянский, ганзи, ляншаньский) (12), ирландской породы керри (13) и российских стародавних пород -бестужевской, холмогорской, костромской, красной горбатовской и ярославской (14,15).…”

Section: пирование биоразнообразиеunclassified

Тhe Population-Genetic Structure of Native Tagil Cattle by STR- And SNP-Markers

Stolpovsky¹

2021

S-h. biol.

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Разведение специализированных пород или нескольких внутрипородных линий снижает породное и генетическое разнообразие поголовья, и, как следствие, создается реальная угроза исчезновения аборигенного скота. Для изучения популяционно-генетической структуры местных пород, обладающих уникальными адаптивными признаками и устойчивостью к ряду заболеваний, чаще всего используют микросателлитный анализ либо более информативный метод полногеномного SNP (single nucleotide polymorphism) генотипирования. История создания тагильской породы насчитывает более 200 лет. В настоящее время в России и в мире осталось единственное генофондное стадо тагильского скота (около 600 гол.), однако молекулярно-генетические характеристики этого ограниченного по численности генофонда остаются недостаточно исследованными. В настоящем сообщении впервые представлены результаты идентификации STR-и SNP-генотипов уникальной местной тагильской породы. Цель работы -микросателлитный анализ (STR) и полногеномный анализ полиморфизма единичных нуклеотидов (SNPs) для оценки генетического разнообразия и установления популяционной структуры современной популяции аборигенного тагильского скота. Генотипы животных тагильской породы (TAGIL, n = 98; СПК им. Шорохова, Пермский край, 2021 год) исследовали методом мультиплексного анализа по 11 микросателлитам (TGLA227,

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Selection signatures in two oldest Russian native cattle breeds revealed using high-density single nucleotide polymorphism analysis

Cited by 27 publications

References 134 publications

Unveiling Comparative Genomic Trajectories of Selection and Key Candidate Genes in Egg-Type Russian White and Meat-Type White Cornish Chickens

Unveiling Comparative Genomic Trajectories of Selection and Key Candidate Genes in Egg-Type Russian White and Meat-Type White Cornish Chickens

Genome-Wide Analysis Reveals Selection Signatures Involved in Meat Traits and Local Adaptation in Semi-Feral Maremmana Cattle

Тhe Population-Genetic Structure of Native Tagil Cattle by STR- And SNP-Markers

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